The role of the CD4 and CD8 molecules in T cell activation is presently a matter of controversy. Although their role as associative binding elements to MHC class II or class I is well documented, their influence on the triggering process in unclear. Because antibodies to CD4 or CD8 block T cell activation in the absence of their respective ligands, a negative signaling by these molecules has been suggested. However, recent experimental evidence argues against a negative regulatory effect of these molecules, since, e.g., simultaneous cross-linking of TCR and CD4 leads to enhanced T cell activation. Therefore, a current model suggests that the association of TCR and CD4 in the membrane gives a positive signal essential for triggering. In this report we present evidence that this model is likely to be too simple. Anti-CD4 and CD8 antibodies inhibit alternative, nonreceptor pathways of T cell triggering via Tp103 and Tp44 in the absence of class II positive accessory or target cells. These antibodies also inhibit bypass activation of T cells by phorbol ester and calcium ionophore in an accessory cell-free system. Furthermore, if the CD4 or CD8 molecules are removed from the cell surface by antibody-induced modulation, the proliferative and cytotoxic response of T cell clones is enhanced. This enhancement is also observed if resting peripheral blood T cells are used as responder cells. These data show that the CD4 or CD8 molecules have a complex regulatory function in T cell activation beyond the requirement for co-cross-linking with the TCR.